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given the equation T(n)=sqrt(2)T(n/2)+log(n). The solution points to case 1 of the M.T. with a complexity class of O(sqrt(n)). However after my understanding log(n) is polynomial greater then sqrt(n). Am I missing something? Fyi I used the definition as following: n^e = log_b(a) where a = sqrt(2) and b = 2. This would give me e = 1/2 < 1. log n is obviously polynomial greater then n^e.

P.S: This isn't homework!

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1 Answer 1

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No. logx n is not greater than √n.

Consider n=256,

√n = 16,


log2 256 = 8 (let us assume base x=2, as with many of the computational problems).

In your recurrence,

T(n)= √2 T(n/2) + log(n)
a = √2, b = 2 and f(n) = log(n)

logb a = log2 √2 = 1/2.

Since log n < na, for a > 0, We have Case 1 of Master Theorem.

There for T(n) = Θ(√n).

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My bad for only testing a few low numbers instead of actually looking at what happens if we use great n's. Thank you for your detailed answer, it really helped me a lot! – optional May 24 '13 at 10:12

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